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SFB 837 SFB 837
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CAMPUS MAP
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ID Building04 Floor
653 Room
/ Bus Transfer: REC 2016
Building ID, Floor 04, Room 653 Ruhr-Universität Bochum
Universitätsstraße 150, 44801 Bochum, Germany
Dr. Arash Alimardani Lavasan
Ruhr-Universität BochumFoundation Engineering, Soil and Rock MechanicsUniversitätsstraße 150, 44801 Bochum
Phone: +49 234 32 26058 Fax: +49 234 32 14150
E-Mail: [email protected]: www.gbf.rub.de
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SFB 837 - Interaction Modeling in Mechanized Tunneling
Fon: +49 (0)234 32-24759Fax: +49 (0)234 32-14696Mail: [email protected]
CEO: Dipl.-Ing. Jörg Sahlmen
Building IC/6/89 Universitätsstraße 150 D-44801 Bochum
RUHR UNIVERSITY BOCHUM
SFB COORDINATOR
Prof. Dr. Günther Meschke
PROJECT LEADERS
* Members of the Executive Board
Geosciences, RUBProf. Dr. M. Alber (Engineering Geology & Rock Engineering)Prof. Dr. W. Friederich (Geophysics)
Mechanical Engineering, RUBDr.-Ing. A. Röttger (Materials Technology)Prof. Dr. W. Theisen (Materials Technology)
Civil and Environmental Engineering, RUBProf. Dr. R. Breitenbücher* (Building Materials)Dr.-Ing. S. Freitag (Structural Mechanics)Prof. Dr. K. Hackl (Mechanics of Materials)Prof. Dr. M. König* (Computing in Engineering)Dr.-Ing. A. Lavasan (Foundation Engineering, Soil & Rock Mechanics)Prof. Dr. P. Mark (Concrete Structures)Prof. Dr. G. Meschke* (Structural Mechanics)Prof. Dr. T. Nestorović (Mechanics of Adaptive Systems)Prof. Dr. T. Schanz (Foundation Engineering, Soil & Rock Mechanics)Dr.-Ing. B. Schößer (Tunneling and Construction Management)Prof. Dr. M. Thewes* (Tunneling and Construction Management)
Civil and Environmental Engineering, University StuttgartProf. Dr. H. Steeb (Continuum Mechanics)
INTERACTION MODELINGMECHANIZED TUNNELING
C O L L A B O R AT I V E R E S E A R CH CEN T ER 8 3 7
STABILITY ANALYSIS IN GEOTECHNICAL PROBLEMS
– WORKSHOP –
JULY 10TH, 2017
Detailed information: www.ruhr-uni-bochum.de/anreise/index_en.html
INTERACTION MODELING MECHANIZED TUNNELING
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Mechanized tunneling is an established flexible and efficient technology for the construction of under-ground infrastructure, characterized by a dynamic advancement of tunnel boring technologies, in-creasing diameters and a broadening range of appli-cability. This rapid development in association with the inherent heterogeneity of the ground poses new challenges to prognosis models.
Considering this background, the subject of the Col-laborative Research Center SFB 837 “Interaction Models for Mechanized Tunneling” is the research and development of models, methods and design concepts, which, when adequately interlinked, can deal with the manifold complex interactions of the components and processes involved in mechanized tunneling.
Research within the four project areas of the SFB includes the ground exploration and modeling of the ground, the tunnel boring machine, the lining and annular gap grouting, and the interactions between tunneling and existing structures. Furthermore, the cutting, advancement and logistics processes will be represented using adequate models integrated by means of a consistent SFB-wide information management system.
SFB 837 – PROJECT OBJECTIVES
This workshop mainly aims to give an overview on the recent advances and new developments in stability analysis for geotechnical applications. The mostly referred solutions for determination of failure load such as limit equilibrium, limit load theorem of classical plasticity and upper and lower bound analyses based on finite element method will be discussed. The use of the classi-cal as well as modern techniques to perform sta-bility analysis for bench mark geotechnical appli-cations including footing bearing capacity, slope and tunnel face stability analyses are in the main focus of this workshop.
WORKSHOP PROGRAM – JULY 10TH, 2017
WORKSHOP PROGRAM – JULY 10TH, 2017
STABILITY ANALYSIS IN GEOTECHNICAL PROBLEMS
STABILITY ANALYSIS IN GEOTECHNICAL PROBLEMS
Three dimensional analysis of tunnel face stability using FEM
Christoph Schmüdderich and Tom Schanz
Foundation Engineering, Soil and Rock Mechanics,
Ruhr-Universität Bochum, Bochum, Germany
Application of KEM to bearing capacity and tunnel face stability
Diethard König, Mahmoud Qarmout and Tom Schanz
Foundation Engineering, Soil and Rock Mechanics,
Ruhr-Universität Bochum, Bochum, Germany
Face stability analysis in mechanized tunneling: A novel FE approach based on incompatible modes and strong discontinuity kinematics
Abdullah Alsahly1, Carlo Callari2 and Günther Meschke1
1 Structural Mechanics, Ruhr-Universität Bochum,
Bochum, Germany, 2 Facoltà di Ingegneria, Università del Molise,
Campobasso, Italy
Comparison of finite element limit analysis and strength reduction techniques
Franz Tschuchnigg1, Helmut Schweiger1 and Alessandra Paternesi2
1 Computational Geotechnics Group, Institute
for Soil Mechanics and Foundation Engineering,
Graz University of Technology, Graz, Austria, 2 Università Politecnica delle Marche, Ancona, Italy
Building ID, Floor 04, Room 653 – 15:00 - 17:30
Building ID, Floor 04, Room 653 – 15:00 - 17:30
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